def solve_nonlinear(self, params, unknowns, resids):
""" Calculate output. """
azimuthGS, elevationGS = computepositionspherical(
self.n, params['r_b2g_A'])
unknowns['azimuthGS'] = azimuthGS
unknowns['elevationGS'] = elevationGS
def compute(self, inputs, outputs):
"""
Calculate outputs.
"""
azimuthGS, elevationGS = computepositionspherical(self.n, inputs['r_b2g_A'])
outputs['azimuthGS'] = azimuthGS
outputs['elevationGS'] = elevationGS
def solve_nonlinear(self, params, unknowns, resids):
""" Calculate output. """
azimuth, elevation = computepositionspherical(self.n, params['r_e2s_B'])
unknowns['azimuth'] = azimuth
unknowns['elevation'] = elevation
def compute(self, inputs, outputs):
"""
Calculate outputs.
"""
azimuthGS, elevationGS = computepositionspherical(
self.n, inputs['r_b2g_A'])
outputs['azimuthGS'] = azimuthGS
outputs['elevationGS'] = elevationGS
def compute(self, inputs, outputs):
"""
Calculate outputs.
"""
azimuth, elevation = computepositionspherical(self.n, inputs['r_e2s_B'])
outputs['azimuth'] = azimuth
outputs['elevation'] = elevation
def compute(self, inputs, outputs):
"""
Calculate outputs.
"""
nn = self.options['num_nodes']
azimuth, elevation = computepositionspherical(nn, inputs['r_e2s_B'])
outputs['azimuth'] = azimuth
outputs['elevation'] = elevation
def solve_nonlinear(self, params, unknowns, resids):
""" Calculate output. """
azimuthGS, elevationGS = computepositionspherical(self.n, params['r_b2g_A'])
unknowns['azimuthGS'] = azimuthGS
unknowns['elevationGS'] = elevationGS
def execute(self):
""" Calculate output. """
azimuthGS, elevationGS = computepositionspherical(self.n, self.r_b2g_A)
self.azimuthGS = azimuthGS
self.elevationGS = elevationGS
def execute(self):
""" Calculate output. """
azimuthGS, elevationGS = computepositionspherical(self.n, self.r_b2g_A)
self.azimuthGS = azimuthGS
self.elevationGS = elevationGS
